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Necessary and sufficient conditions for local creation of quantum correlation

Quantum correlation can be created by a local operation from some initially classical states. We prove that the necessary and sufficient condition for a local trace-preserving channel to create quantum correlation is that it is not a commutativity-preserving channel. This condition is valid for arbitrary finite dimension systems. We also derive the explicit form of commutativity-preserving channels. For a qubit, a commutativity-preserving channel is either a completely decohering channel or a mixing channel. For a three-dimensional system (qutrit), a commutativity-preserving channel is either a completely decohering channel or an isotropic channel.

preprint2012arXivOpen access
Xueyuan HuHeng FanD. L. ZhouWu-Ming Liu
quant-ph
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Open access4 authors1 topic
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Xueyuan HuHeng FanD. L. ZhouWu-Ming Liu

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